J
Jinlei Wang
Researcher at North University of China
Publications - 24
Citations - 680
Jinlei Wang is an academic researcher from North University of China. The author has contributed to research in topics: Electrocatalyst & Overpotential. The author has an hindex of 10, co-authored 21 publications receiving 376 citations. Previous affiliations of Jinlei Wang include Xiamen University & Wuhan Institute of Technology.
Papers
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Hierarchical heterostructure NiCo2O4@CoMoO4/NF as an efficient bifunctional electrocatalyst for overall water splitting
TL;DR: In this paper, a hierarchical NiCo2O4@CoMoO4/NF-7 electrode was synthesized via a facile two-step method which involved hydrothermal and calcination processes.
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A 3D well-matched electrode pair of Ni–Co–S//Ni–Co–P nanoarrays grown on nickel foam as a high-performance electrocatalyst for water splitting
TL;DR: In this paper, brush-like Ni-Co-M (M = O, S, Se and P) samples on three-dimensional (3D) hierarchically porous nickel foams (NF) were synthesized via thermolysis, sulfuration, selenylation and phosphorization, respectively, of the Ni−Co-precursor under an Ar atmosphere.
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Constructing a hexagonal copper-coin-shaped NiCoSe2@NiO@CoNi2S4@CoS2 hybrid nanoarray on nickel foam as a robust oxygen evolution reaction electrocatalyst
TL;DR: In this paper, the in situ growth of hexagonal copper-coin-shaped NiCoSe2@NiO@CoNi2S4@CoS2/NF was successfully achieved via a simple and mild hydrothermal and calcination method.
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In situ growth of 3D walnut-like nano-architecture Mo-Ni2P@NiFe LDH/NF arrays for synergistically enhanced overall water splitting
TL;DR: In this paper, a unique nano-architecture catalyst was successfully synthesized by using NiFe LDH nanosheets as a framework to the in situ growth Mo-Ni2P@NiFeLDH/NF.
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A self-supporting electrode with in-situ partial transformation of Fe-MOF into amorphous NiFe-LDH for efficient oxygen evolution reaction
TL;DR: In this article, a self-supporting electrocatalyst by developing MOF derivative on the surface of iron foam (IF) was synthesized through a selftemplated partial transformation strategy.